Continuous power takeoff drive



June 23, 1942. E. F. STUMPF CONTINUOUS POWER TAKEOFF DRIVE Filed Jan. 16, 1941 vE/vroze: EM/l. FSTUMPF fir TOR/VEK Patented June 23, 1942 UNITED STATE S PATENT OFFICE 20 Claims.

This invention relates to a continuous power takeoff drive for tractors whereby machinery operated by the tractor can be continuously operated irrespective of whether the latter is stationary or moving.

In the operation of a tractor it becomes necessary at times to stop the tractor or to drive slowly. When a combine or other farm machinery is driven by a power takeoff shaft which stops or.

slows down with the tractor, the combine cannot be operated in an efficient manner, especially when full of unthreshed wheat or other grain.

In my copending application, Serial No. 341,427, filed June 20, 1940, a continuous power takeoff drive is disclosed which is particularly the vertical plane of the aligned shafts to enable the location of the power takeoff shaft in a vertical plane with said engine and differential shafts.

Another object of the invention is to provide an intermediate or counter shaft for a power takeoff mechanism, which shaft is adapted to drive both the power lift shaft and the power takeoff shaft.

Another object of the invention is to provide a power takeoff mechanism which can be operated without shifting into neutral when the tractor is stopped by the usual friction clutch.

Other objects of the invention are so to mount the power takeoff shaft that it can be removed without the necessity of dismantling or draining the transmission casing.

Another object of the invention is to provide a disengageable escapement or dental slip clutch which can be disengaged when making short turns with a tractor pulling power-driven machinery in order to avoid excessive strain on the universal joint.

A further object of the invention is to provide a straight or direct high gear drive between the engine shaft and the differential mechanism and a safety latch whereby the longitudinal shiftthe engine shaft before it can be coupled for direct drive.

With these and other objects in View, my invention consists in certain novel features of construction and arrangement of parts, hereinafter more fully described and claimed, and illustrated in the accompanying drawing, in which- Figure l is a side elevation of my power takeoff drive mechanism and parts associated therewith.

Figure 2 is an enlarged cross section taken on line 22 of Figure 1.

Figure 3 is an enlarged detail view showing the safety latch in moved position.

Referring by numerals to the accompanying drawing, l0 indicates part of the tractor frame, H the transmission casing having end walls Ila and Nb and partition walls Ho and lid, and I2 the differential housing. Mounted in a housing I4 is one end of the engine shaft 15. A fly wheel I6 is fixed on-said shaft and cooperating with said fiy wheel is a clutch means I! of usual construction and operable in the usual manner by a suitable connection I'la.

A shaft I8 is disposed coaxially with engine shaft I5 and has one end Illa. slidably mounted in a bore formed in the corresponding end of said shaft l5. Shaft l8 extends into transmission casing ll through end wall Ila thereof and ha its otherend slidably journaled in a ball bearing I 9 mounted in a partition will He of easing H. A shaft 20 has one end 20a reduced in diameter and journaled in a bore l8b formed in the corresponding end of shaft l8. This shaft 20 is journaled in a bearing in partition wall lid and extends into the tubular extension l2a of differential housing I2. The end 20b of said shaft 20 is secured by a coupling 2| to the corresponding end of a coaxially disposed shaft 22. The latter extends through said housing [2a into the differential housing l2, being journaled in bearing 23 and carries a beveled pinion 24 which meshes with a beveled gear 25 of the differential mechanism.

A tubular shaft 26 is concentrically disposed with shaft l8 and is preferably rotatively mounted thereon and has one end extending into the transmission casing II to receive a pinion 21. A ball bearing 28 is provided for said tubular shaft in the end wall Ila. Pinion 2'l meshes with a gear 29 which is fixed on a counter shaft 30 journaled in end wall Ilb and partition wall He and disposed to one side of the vertical plane of the axis of shafts l8 and 2B. A gear 3| is fixed able shaft has to be out of disengagement with on shaft 30 near wall lid and gears 32 and 33 are fixed on said shaft in spaced relation with gear 3|.

' slidably mounted on shaft 26, but in nonrotative engagement therewith. are transmission gears 34, 35 and 38. Gears 34, and 35 are adapted to'be shifted in one direction to bring gear 34 into engagement with gear 3| to provide first speed, or in opposite direction to bring gear 35 into engagement with gear 32 to provide second speed. Gear 361s adapted to be moved in one direction into engagement with gear 33 to. provide third speed. Gears 34 and 35 are'operated by a shifting fork 31 and gear 36' is'operated'by .24 and gear-25.

- .To. disconnect the drive, clutch means I1 is actuated by the-operating connection |1a in the usual manner.

Power takeofldrive As stated before, shaft I8 is slidably mounted in tubular shaft 26. Mounted on said shaft I8 between the end of shaft I and the corresponding end of tubular shaft 26 is a double faced clutch element 46 which is adapted to enter into engagement either with a clutch element 4 I fixed to the tubular shaft 26, or with a clutch element 42 formed on the end of engine shaft I5, as shown in Figure 1.

Fixed to shaft I8 in spaced relation with gear 21 and partition wall He is a pinion 44 which meshes with a gear 45 fixed on a counter shaft 46. This shaft is disposed below and in a vertical plane with the axis of shaft I8, as shown in Figure 2. and is journaled in bearings disposed in partition walls He and Ild and end wall III). This shaftextends through said end wall I ll) into a casing 41 fixed to transmission casing II and to tubular extension I21: and has bearing in said casing 41. A gear 48 is fixed onshaft 46 in casing 41 and meshes with an idler gear 49 journaled in said casing below said first gear. This idler meshes with a gear 56 which is loosely mounted on a horizontally disposed shaft 5|. This is the power takeoff shaft and is used to provide power for operating various machinery independently of the transmission drive. One end of this power takeoff shaft 5| is journaled in a bearing 52 in casing 41 and the shaft extends outwardly and rearwardly from said casing. An overload release coupling is used to connect and disconnect said shaft 5| from said gear 56. This coupling consists of one element 54 fixed to said gear and a complementary element 54a slidably and non-rotatably mounted on shaft 5|. The opposed faces of said elements are adapted to be interengaged to provide the driving connection.

A coiled spring 55 bears at one end against a Y means [1 is in engagement or out of engagement with saidensine shaft.

Shaft 5| can be disconnected fro'm'gear 56 by means of a hand operated lever 51 which is pivoted at 58 on casing 41 and operates a shifting fork 59 which engages a collar on said slidable clutch member 54a and moves the latter against the tension of the spring 55. The lever 51 can be locked in disengaging position by a pawl 66 which is adapted to engage a notch in a stationary segment 6|. A rod 62 is operated in the usualmanner to release said pawl and permit the clutch member 54a to move into engagement with clutch member 54. A housing 64 is attached at one end to casing 41 and encloses said spring 55 and collar 56 and is provided with a dust shield 65. An elongated slot 66 is formed in housing 64 for the admission of the forked end of lever 51.

The power lift A gear 61 is fixed to shaft 46 between partition walls Md and end wall IIb and meshing with this gear is a gear 68 fixed to one section of a tubular shaft 69. This tubular shaft operates on shaft 22 and is journaled in a bearing 16 in walls Nd and I lb. One end of said tubular shaft terminates in the extension I24; and has formed thereon a worm 1| which engages a worm gear 12 fixed on a power lift shaft 14.

Preferably, tubular shaft 69 is formed in two sections secured together at a point coinciding with coupling 2|, as indicated at 15. Thus the power lift mechanism can be operated simultaneously with both the transmission drive and the power takeoff drive or in conjunction with either one or alone.

Direct drive When shaft I8 is operated or shifted longitudinally to bring the clutch element 40 into engagement with clutch element 4|, the inner or rear end of said shaft is brought against the corresponding end of shaft 20. This end of shaft I8 is provided with a plurality of splines 16 which are identical in size and spacing with similar splines formed on the transmission shaft 28. Gear 36 is adapted to be shifted forward by lever 39 to engage said splines 16 while retaining nonrotative engagement with shaft 28, thereby coupling said shafts together and establishing a direct drive between the clutch member I1 and the differential pinion 24.

Shaft I8 is shifted by fork' 11 which engages 'a collar on gear 44 fixed to said shaft. This fork 11 is carried by a horizontally disposed bar 18 which is slidably mounted in stationary brackets 19 and has an operating engagement with a manually operated lever pivotally mounted on casing II at 8|. A vertically-disposed spring pressed pin 82 is slidably mounted in one of said brackets and is adapted to engage one of three notches 84 formed in the upper edge of bar 18 so as to yieldably hold said bar in one of three positions corresponding to the three positions of shaft I8, namely, engine shaft I5 engaging position, neutral or central position, and clutch means I1 engaging position.

In order to prevent shifting of gear or coupling member 36 into engagement with shaft I8, while the latter is in driving engagement with shaft I5 or in neutral position, safety means are provided which permit the shifting of said gear coupling 36 only when said shaft I8 and clutch element 40 are in engagement with the clutch element 4| of clutchmeans This safety.

means comprises a lever 65 pivoted at one end in the path of forward movement of horizontal bar 3811 of fork 38. Thus said bar 38a cannot be moved forwardly and the gear or coupling 36 cannot be shifted into engagement with the shaft I8.

A coiled spring 68 is interposed between lever 85 and casing II and yieldably forces finger 81 against bar 18. When the shaft I8 is shifted against shaft 26, the finger 81 drops into a notch 89 so that said finger and the end of lever 85 are disposed belowthe horizontal plane of the slidable bar 38a and the latter can now be moved forward.

In starting the power takeoff shaft, the clutch element 40 is first moved into neutral. The engine is then started and friction clutch |1 disengaged. Clutch element 40 is then shifted into required speed, regardless of whether the tractor is at standstill or operated at low speed.

The clutch member I'lb is splined on the end of the tubular shaft 26 and is movable relatively to the fly wheel l6. The clutch member He is slidably mounted on .the hub of clutch member Nb and is movable'to make and break the driving engagement between said fly wheel l6 and the tubular shaft 26, and also shaft l8 when the latter is interlocked with clutch member |'|b through said tubular shaft 26.

The clutch element 4| rotates with said shaft 26 and clutch member Nb and when engaged by clutch element!!! transmits the power from shaft' l5 through flywheel I6 and clutch I1 and tubular shaft 26 to said clutch elements 40 and 4| and thence to shaft I8.

The shiftable transmission gears 34, 35 and 36 are mounted in the spline end 260 of shaft 20 and are adapted to engage the respective gears fixed on the transmission counter shaft 30. In addition, gear 36 acts as a coupling or spline hub for interengaging shafts l8 and 26 to provide a straight drive between the engine shaft I5 and differential bevel gear 24.

The transmission counter shaft 30 is disposed to one side of the vertical plane of shafts I8 and 20, thereby permitting the power takeoff counter shaft 46 and the power takeoff shaft 5| to be placed in said vertical plane.

The power takeoff counter shaft 46 is mounted in casing and has one end 46a projecting outward therefroin into casing 41. The latter is removable from casing I together with the gearing contained therein. The end 46a of shaft 46 is formed with splines to permit removal and replacement of gear 48. Thus the power takeoff shaft BI and casing 41 can be removed without the necessity of opening and draining casing H or disturbing the gearing contained therein. A

cap (not shown) can be'placed over the projecting end 46a when casing 41 is removed.

. The differential casing l2 can also be detached from casing without opening the latter.

My improved power takeoff drive is adapted to be used in tractors having the power delivery or bevel pinion 24 in axial alignment with the engine shaft l5 and permits the power takeoff shaft to be located below and in a vertical plane with said aligned axes. The power takeoff shaft 5| can be continuously operated during stopping and starting of the tractor, or it can be stopped simultaneously with the tractor. The driving connection between the tubular shaft 26 and the transmission countershaft 30 permits the transmission drive to straddle the driving connection between the shaft l8 and transmission shaft 20 so that a direct driving connection can be had between said shafts l8 and 20. This straddle drive also permits the driving connection between the shaft l8 and the countershaft 46 of the power takeoff drive.

My improved drive mechanism is simple in operation and highly efiicient in performing its intended functions and can be readily applied to that type of tractor having coaxially aligned engine and differential bevel gear shafts.

While I have disclosed herein the preferred embodiment of my drive mechanism, it is obvious that various changes in the construction and arrangement of parts thereofcan be made without departing from the nature and spirit of my invention.

I-claim:

- 1. In a tractor having an engine shaft and a transmission shaft disposed coaxially with each other; a longitudinally movable shaft disposed coaxially between said shafts, means for effecting driving engagement between said movable shaft and said transmission shaft, a tubular shaft revolubly mounted on said movable shaft,

a clutch means for connecting and disconnecting said tubular shaft from said engine shaft,

transmission mechanism actuated by said tubular shaft for driving said transmission shaft, a power takeoff shaft arranged below said transmission shaft, and power takeoff mechanism operated by said movable shaft and actuating said' power takeofi shaft.

2. In a tractor having an engine shaft and a transmission shaft disposed coaxially with each other; a longitudinally movable shaft disposed coaxially between said shafts, means for effecting driving engagement between said movable shaft and said transmission shaft, a tubular shaft revolubly mounted on said movable shaft, a clutch means for connecting and disconnecting said tubular shaft from said engine shaft, transmission mechanism actuated by said tubular shaft for driving said transmission shaft, a power takeoff shaft arranged below said transmission shaft, power takeoff mechanism operated by said movable shaft and actuating said power takeoff shaft, and a clutch for disconnecting said power takeoff shaft from said power takeoff mechanism.

3. In a tractor having an engine shaft and a transmission shaft disposed coaxially with each other; an intermediate shaft disposed coaxially between said shafts, means for effecting driving engagement between said intermediate shaft and said engine shaft, a tubular shaft concentrically mounted with said intermediate shaft, a clutch means for connecting and disconnecting said tubular shaft from said engine shaft, transmission mechanism actuated by said tubular shaft for driving said transmission shaft, a power takeoff shaft arranged below said transmission shaft, power takeoff mechanism operated by said intermediate shaft and actuating .said power takeoff shaft, and an overload release coupling interposed between said power takeoff shaft and its actuating mechanism.

4. In a tractor having an engine shaft and a transmission .shaft disposed coaxially with each its actuating mechanism, and a manually operable means for operating said escapement clutch to disengage said power takeoff shaft from its actuating mechanism.

5. In a-tractor having an engine shaft and a transmission shaft disposed coaxiallywith' each other; a longitudinally movable shaft disposed coaxially between said shafts, means for effecting driving engagement between said movable shaft and said transmission shaft, a tubular shaft revolubly mounted on said movable shaft,

a clutch means for connecting and disconnecting said tubular shaft from said engine shaft, transmission mechanism actuated by said tubular shaft for driving said transmission shaft, a power takeoff shaft arranged below said transmission shaft, power takeoff mechanism operated by said movable shaft and actuating said power takeoff shaft, a clutch for disconnecting said power takeoff shaft from said power takeoff mechanism, a power lift shaft, and means operated by said power takeoff mechanism for actuating said power lift shaft.

6. In a tractor, an engine shaft, a transmission shaft disposed coaxially therewith, a longitudinally shiftable shaft disposed between and coaxially with said shafts, a tubular shaft mounted concentrically with shiftable shaft and terminating short of the ends thereof, a friction clutch interposed between said engine shaft and said tubular shaft, a clutch element fixed on one end of said engine shaftI an opposed clutch element fixed on the opposed end of said tubular shaft, a double-faced clutch element fixed on said shiftable shaft and movable into engagement with either of said clutch elements, transmission mechanism operated by said tubular shaft and actuating said transmission shaft, a power takeoff shaft disposed below said transmission shaft, a power takeoff mechanism operable by said shiftable shaft and actuating said power takeoff shaft, and means operable to effect operating engagetill interposed between said engine shaft and saidtubular shaft, a clutch element fixed on one end of said engine shaft, an opposed clutch element fixed on the opposed end of said tubular shaft, a double-faced clutch element fixed on said shiftable shaft and movable into engagement with either of said clutch elements, transmission mechanism operated by said tubular shaft and actuating said transmission shaft, a power takeoff shaft disposed below said transmission shaft, a power takeoff mechanism operable by said shiftable shaft and actuating said power takeoff shaft, means operable to effect operating engagement between said shiftable shaft and said transmission shaft, whereby the latter can be driven in a straight line direct from said engine shaft,a power lift shaft, and driving mechanism operable by said power takeoff mechanism for actuating said power lift shaft.

8. In a tractor, an engine shaft, a transmission shaft disposed coaxially therewith, a longitudinally shiftable shaft disposed between and coaxially with said shafts, a tubular shaft mounted concentrically with shiftable shaft and terminating short of the ends thereof, a friction clutch interposed between said engine shaft and said tubular shaft, a clutch element fixed on one end of said engine shaft, an opposed clutch element fixed on the opposed end of said tubular shaft, a double-faced clutch element fixed on said shift able shaft and movable into engagement with either of said clutch elements, transmission mechanism operated by said tubular shaft and actuating said transmission shaft, a power takeoff shaft disposed below said transmission shaft, a power takeoff mechanism operable by said shiftable shaft and actuating said power takeoff shaft, means operable to affect operating engagement between said shiftable shaft and said transmission shaft, whereby the latter can be driven in a straight line direct from said engine shaft, a tubular shaft revolubly mounted on said transmission shaft, operating connections between said power takeoff mechanism and tubular shaft, and a power lift shaft driven by said tubular shaft.

9. In a tractor having coaxially aligned an engine shaft and a transmission shaft; a longitudinally shiftable shaft disposed between and coaxially with said shafts, a tubular shaft shaft and said transmission shaft, or with said ment between said shiftable shaft and said transmission shaft, whereby the latter can be driven in a straight line direct from said engine shaft.

7. In a tractor, an engine shaft, a transmisv sion shaft disposed coaxially therewith, a longiengine shaft for continuous operation of said power takeofi shaft independently of said transmission shaft.

10. In a tractor having coaxially aligned an engine shaft and a transmission shaft; a longitudinally shiftable shaft disposed between and coaxially with said shafts, a tubular shaft revolubly mounted on said shiftable shaft and terminating short of the ends thereof, a friction clutch fixed on one end of said tubular shaft for cooperation with said engine shaft, a transmission gagement with the adjacent end of said shiftable gearing operable by the other end of said tubular shaft and actuating said transmission shaft, a power takeoff shaft disposed below said transmission shaft, power takeoff mechanism operable by said shiftable shaft for actuating said power takeoff shaft, means on said shiftable shaft for operatively connecting the latter either with said tubular shaft for simultaneous operation of said power shaft and said transmission shaft or with said engine shaft for continuous operation of said power shaft independently of said transmission shaft, and a coupling for operatively interengaging said shiftable shaft and said transmission shaft to provide direct drive from said engine shaft.

11. In a tractor having coaxially aligned an engine shaft and a transmission shaft, a longitudinally shiftable shaft disposed between and coaxially with said shafts, a tubular shaft revolubly mounted on said shiftable shaft and terminating short of the ends thereof, a friction clutch fixed on one end of said tubular shaft for cooperation with said engine shaft, a transmission gearing operable by the other end of said tubular shaft and actuating said transmission shaft, a power takeoff shaft disposed below said transmission shaft, power takeoff mechanism operable by said shiftable'shaft for actuating said power takeoff shaft, means on said shiftable shaft for operatively connecting the latter either with said tubular shaft for simultaneous operation of said power takeoff shaft and said transmission shaft or with said engine shaft for continuous operation of said power takeoff shaft-independently of said transmission shaft, a coupling for operatively intereni gaging said shiftable shaft and said transmission shaft to provide direct drive from said engine shaft, and means for, permitting movement of said coupling into operative position only when said shiftable shaft is disengaged from said enine shaft.

. 12. In a tractor, an engine shaft, a transmission shaft disposed coaxially therewith, a longitudinally shiftable shaft disposed between and coaxially with said shafts, a tubular shaft journaled concentrically with said shiftable shaft, transmission gearing connecting said tubular shaft with said transmission shaft, a friction clutch for operating said tubular shaft by said engine shaft, a power takeoif shaft. gearing connecting said shiftable shaft with said power takeoff shaft, and a clutch for connecting said shiftable shaft with said tubular shaft or said engine shaft, whereby said power takeoff can be operated either simultaneously with said transmission gearing or independently thereof by said engine shaft.

13. In a tractor, an engine shaft, a transmission shaft disposed coaxially therewith, a longitudinally shiftable shaft disposed between and coaxially with said shafts, a tubular shaft journaled concentrically with said shiftable shaft. transmission gearing connecting said tubular shaft with said transmission shaft, a friction clutch for operating said tubular shaft by said shaft when the latter is in engagement with'said tubular shaft, whereby said transmission is driven directly from said engine shaft.

14. In a tractor, an engine shaft, a transmission shaft disposed coaxially therewith, a longitudinally shiftable shaft disposed between and coaxially with said shafts, a tubular shaft journaled concentrically with said shiftable shaft, transmission gearing connecting said tubular shaft with said transmission shaft, a friction clutch for operating said tubular shaft by said engine shaft, a power takeoff shaft, gearing connecting said shiftable shaft with said power takeoff shaft, a clutch for connecting said shiftable shaft with said tubular shaft or said engine shaft, whereby said power takeoff shaft can be operated either simultaneously with said transmission gearing or independently thereof by said engine shaft, a coupling in a non-rotative sliding engagement with one end of said transmission shaft and movable into non-rotative engagement with the adjacent end of said shiftable shaft when the latter is in engagement with said tubular shaft, whereby said transmission is driven directly from said engine shaft, and a manually controlled lever for shifting said coupling.

15. In a tractor, an engine shaft, a transmission shaft disposed coaxially therewith, a longitudinally shiftable shaft disposed between and coaxially with said shafts, a tubular shaft journaled concentrically with said shiftable shaft, transmission gearing connecting said tubular shaft with said transmission shaft, a friction clutch for operating said tubular shaft by said engine shaft, a power takeoff shaft, gearing connecting said shiftable shaft with said power takeoff shaft, a clutch for connecting said shiftable shaft with said tubular shaft or said engine shaft, whereby said power takeoff shaft can be operated either simultaneously with said transmission gearing or independently thereof by said engine shaft, a coupling in a non-rotative sliding engagement with one end of said transmission shaft and movable into non-rotative engagement with the adjacent end of said shiftable shaft when the latter is in engagement with said tubular shaft, whereby said transmission is driven directly from said engine shaft, a power takeoff shaft, gearing connecting said shiftable shaft with said power takeoff shaft, a clutch for connecting said shiftable shaft with said tubular shaft or said engine shaft, whereby said power takeoff shaft can be operated either simultaneously with said transmission gearing or independently thereof by said engine shaft, and a coupling in a non-rotative sliding engagement with one end of said transmission shaft and movable into non-rotative enengine shaft, and safety means for permitting shifting of said coupling into engagement with said shiftable shaft only when the latter is in engagement with said tubular shaft.

16. In a tractor having an engine shaft and a transmission shaft disposed coaxially with each other; a longitudinally shiftable shaft disposed between said shafts coaxially therewith, a tubular shaft concentrically mounted with said shiftable shaft, means for driving said tubular shaft from said engine shaft, a transmission counter shaft journaled to one side of the vertical plane of said coaxially aligned shafts and in driving engagement with said tubular shaft, transmission gearing operatively connecting said transmission counter shaft with said transmission shaft, a power takeoff shaft disposed below said aligned shafts, a power takeoff counter shaft in driving engagement with said shiftable shaft, and gearing connecting said last mentioned shaft with said power takeoff shaft, a friction clutch for connecting said engine shaft with said tubular shaft, and a clutch for connecting said shiftable shaft either with said engine shaft or said tubular shaft.

17. In a tractor, an engine shaft, a transmission casing, a transmission shaft journaled in said casing coaxially with said engine shaft, a longi-' tudinally shiftable shaft journaled in said casing coaxially with and between said first mentioned shafts, a tubular, shaft journaled in said casing concentrically with said shiftable shaft, a friction .clutch connecting one end of saidtubular shaft with said engine, shaft, a transmission counter shaft journaled in said casing below'and to one side of said transmission shaft, gearing connecting said counter shaft with the other end of said tubular shaft, selective transmissicn gearing con necting said counter shaft with said transmission shaft, a power takeoff counter shaft journaled in said casing below said transmission shaft and having one end projecting outwardly from said casing, gearing connecting the other end of said power takeoff counter shaft with said'shiftable shaft, a detachable casing secured to said transmission casing and enclosing said projecting shaft end, a power takeoff shaft having one end journaled in said detachable housing and projecting rearwardly therefrom, gearing mountedin said detachable casing andestablishing driving connection between the projecting end of said power takeoff counter shaft and said power takeoff shaft, and means for connecting said shiftable shaft with said tubular shaft.

18. In a tractor, an engine shaft, a transmission casing, a transmission shaft Journaled in said casing coaxially with said engine shaft, a longitudinally shiftable shaft journaled in said casing coaxially with and between said first mentioned shafts, a tubular shaft jlournaled in said casing concentrically with said shiftable shaft, a

friction clutch connecting one end of said tubular shaft with said engine shaft, a transmission counter shaft journaled in said casing below and to one side of said transmission shaft, gearing connecting said counter shaft with the other end of said tubular shaft, selective transmission gearing connecting said counter shaft with said transmissionshaft, a power takeoff counter shaft journaled in said casing below said transmission shaft and having one end projecting outwardly from said casing, gearing connecting the other end of said power takeoff counter shaft with said shiftable shaft, a detachable casing secured to said transmission casing and enclosing said projecting shaft end, a power takeoff shaft having one end journaled in said detachable casing and projectconnection between the projecting end of said power takeoff counter shaft and said power take-- off shaft, a clutch elementon said tubular shaft, a. clutch element on said engine shaft, anda double-faced clutch element fixed on said shiftable shaft between said other clutch elements and movable with said shiftable shaft into engagement with either' one of said other clutch ele ments, whereby said powertakeoff shaft can'rbe operated either through said tubular shaft .or

directly by said engine shaft.

19. In a tractor having an engine shaft and a power delivery shaft disposed coaxially with each I low said concentric shafts, and means transmitting the rotative power from the inner'one of said concentric shafts to said power take-off shaft and spanning said transmission counter shaft and gearing.

20. In a tractor having an engine shaft and a power delivery shaft disposed coaxially with each other, a pair of concentric shafts disposed between and coaxially with said first mentioned shafts, a fly wheel 'fixedto said engine shaft, a friction clutch fixed on one end of the outer one of said concentric shafts and engaging said fly wheel, a

tractor driving gear on the other end of said last-named shaft, means to rotate said inner one of. said concentric shafts, a power takeoff shaft,

disposed parallel with said concentric shafts, power takeoff gearing transmitting the rotative power from the inner one of said concentric shafts to said power takeoff shaft, and driving means T actuated by the outer one of said concentric shafts and' operating said power delivery shaft, said driving means spanning said power takeoff,

gearing.

EMIL F. STUMPF. 

